;;; Section 3.4: Auxilliary functions
(declaim (inline f g h i)
- (ftype (function (ub32 ub32 ub32) ub32) f g h i))
+ (ftype (function (ub32 ub32 ub32) ub32) f g h i))
(defun f (x y z)
(declare (type ub32 x y z)
- (optimize (speed 3) (safety 0) (space 0) (debug 0)))
+ (optimize (speed 3) (safety 0) (space 0) (debug 0)))
#+cmu
(kernel:32bit-logical-or (kernel:32bit-logical-and x y)
- (kernel:32bit-logical-andc1 x z))
+ (kernel:32bit-logical-andc1 x z))
#-cmu
(logior (logand x y) (logandc1 x z)))
(defun g (x y z)
(declare (type ub32 x y z)
- (optimize (speed 3) (safety 0) (space 0) (debug 0)))
+ (optimize (speed 3) (safety 0) (space 0) (debug 0)))
#+cmu
(kernel:32bit-logical-or (kernel:32bit-logical-and x z)
- (kernel:32bit-logical-andc2 y z))
+ (kernel:32bit-logical-andc2 y z))
#-cmu
(logior (logand x z) (logandc2 y z)))
(defun h (x y z)
(declare (type ub32 x y z)
- (optimize (speed 3) (safety 0) (space 0) (debug 0)))
+ (optimize (speed 3) (safety 0) (space 0) (debug 0)))
#+cmu
(kernel:32bit-logical-xor x (kernel:32bit-logical-xor y z))
#-cmu
(defun i (x y z)
(declare (type ub32 x y z)
- (optimize (speed 3) (safety 0) (space 0) (debug 0)))
+ (optimize (speed 3) (safety 0) (space 0) (debug 0)))
#+cmu
(kernel:32bit-logical-xor y (kernel:32bit-logical-orc2 x z))
#-cmu
(ldb (byte 32 0) (logxor y (logorc2 x z))))
(declaim (inline mod32+)
- (ftype (function (ub32 ub32) ub32) mod32+))
+ (ftype (function (ub32 ub32) ub32) mod32+))
(defun mod32+ (a b)
(declare (type ub32 a b) (optimize (speed 3) (safety 0) (space 0) (debug 0)))
(ldb (byte 32 0) (+ a b)))
`(ext:truly-the ub32 (+ ,a ,b)))
(declaim (inline rol32)
- (ftype (function (ub32 (unsigned-byte 5)) ub32) rol32))
+ (ftype (function (ub32 (unsigned-byte 5)) ub32) rol32))
(defun rol32 (a s)
(declare (type ub32 a) (type (unsigned-byte 5) s)
- (optimize (speed 3) (safety 0) (space 0) (debug 0)))
+ (optimize (speed 3) (safety 0) (space 0) (debug 0)))
#+cmu
(kernel:32bit-logical-or #+little-endian (kernel:shift-towards-end a s)
- #+big-endian (kernel:shift-towards-start a s)
- (ash a (- s 32)))
+ #+big-endian (kernel:shift-towards-start a s)
+ (ash a (- s 32)))
#-cmu
(logior (ldb (byte 32 0) (ash a s)) (ash a (- s 32))))
(eval-when (:compile-toplevel :load-toplevel :execute)
(defparameter *t* (make-array 64 :element-type 'ub32
- :initial-contents
- (loop for i from 1 to 64
- collect
- (truncate
- (* 4294967296
- (abs (sin (float i 0.0d0)))))))))
+ :initial-contents
+ (loop for i from 1 to 64
+ collect
+ (truncate
+ (* 4294967296
+ (abs (sin (float i 0.0d0)))))))))
;;; Section 3.4: Helper Macro for single round definitions
(defmacro with-md5-round ((op block) &rest clauses)
(loop for (a b c d k s i) in clauses
- collect
- `(setq ,a (mod32+ ,b (rol32 (mod32+ (mod32+ ,a (,op ,b ,c ,d))
- (mod32+ (aref ,block ,k)
- ,(aref *t* (1- i))))
- ,s)))
- into result
- finally
- (return `(progn ,@result))))
+ collect
+ `(setq ,a (mod32+ ,b (rol32 (mod32+ (mod32+ ,a (,op ,b ,c ,d))
+ (mod32+ (aref ,block ,k)
+ ,(aref *t* (1- i))))
+ ,s)))
+ into result
+ finally
+ (return `(progn ,@result))))
;;; Section 3.3: (Initial) MD5 Working Set
(let ((regs (make-array 4 :element-type '(unsigned-byte 32))))
(declare (type md5-regs regs))
(setf (md5-regs-a regs) +md5-magic-a+
- (md5-regs-b regs) +md5-magic-b+
- (md5-regs-c regs) +md5-magic-c+
- (md5-regs-d regs) +md5-magic-d+)
+ (md5-regs-b regs) +md5-magic-b+
+ (md5-regs-c regs) +md5-magic-c+
+ (md5-regs-d regs) +md5-magic-d+)
regs))
;;; Section 3.4: Operation on 16-Word Blocks
word block of input, and updates the working state in A, B, C, and D
accordingly."
(declare (type md5-regs regs)
- (type (simple-array ub32 (16)) block)
- (optimize (speed 3) (safety 0) (space 0) (debug 0)))
+ (type (simple-array ub32 (16)) block)
+ (optimize (speed 3) (safety 0) (space 0) (debug 0)))
(let ((A (md5-regs-a regs)) (B (md5-regs-b regs))
- (C (md5-regs-c regs)) (D (md5-regs-d regs)))
+ (C (md5-regs-c regs)) (D (md5-regs-d regs)))
(declare (type ub32 A B C D))
;; Round 1
(with-md5-round (f block)
(A B C D 4 6 61)(D A B C 11 10 62)(C D A B 2 15 63)(B C D A 9 21 64))
;; Update and return
(setf (md5-regs-a regs) (mod32+ (md5-regs-a regs) A)
- (md5-regs-b regs) (mod32+ (md5-regs-b regs) B)
- (md5-regs-c regs) (mod32+ (md5-regs-c regs) C)
- (md5-regs-d regs) (mod32+ (md5-regs-d regs) D))
+ (md5-regs-b regs) (mod32+ (md5-regs-b regs) B)
+ (md5-regs-c regs) (mod32+ (md5-regs-c regs) C)
+ (md5-regs-d regs) (mod32+ (md5-regs-d regs) D))
regs))
;;; Section 3.4: Converting 8bit-vectors into 16-Word Blocks
"Convert a complete 64 (unsigned-byte 8) input vector segment
starting from offset into the given 16 word MD5 block."
(declare (type (integer 0 #.(- most-positive-fixnum 64)) offset)
- (type (simple-array ub32 (16)) block)
- (type (simple-array (unsigned-byte 8) (*)) buffer)
- (optimize (speed 3) (safety 0) (space 0) (debug 0)))
+ (type (simple-array ub32 (16)) block)
+ (type (simple-array (unsigned-byte 8) (*)) buffer)
+ (optimize (speed 3) (safety 0) (space 0) (debug 0)))
#+(and :cmu :little-endian)
(kernel:bit-bash-copy
buffer (+ (* vm:vector-data-offset vm:word-bits) (* offset vm:byte-bits))
(* 64 vm:byte-bits))
#-(and :cmu :little-endian)
(loop for i of-type (integer 0 16) from 0
- for j of-type (integer 0 #.most-positive-fixnum)
- from offset to (+ offset 63) by 4
- do
- (setf (aref block i)
- (assemble-ub32 (aref buffer j)
- (aref buffer (+ j 1))
- (aref buffer (+ j 2))
- (aref buffer (+ j 3))))))
+ for j of-type (integer 0 #.most-positive-fixnum)
+ from offset to (+ offset 63) by 4
+ do
+ (setf (aref block i)
+ (assemble-ub32 (aref buffer j)
+ (aref buffer (+ j 1))
+ (aref buffer (+ j 2))
+ (aref buffer (+ j 3))))))
(defun fill-block-char (block buffer offset)
"Convert a complete 64 character input string segment starting from
offset into the given 16 word MD5 block."
(declare (type (integer 0 #.(- most-positive-fixnum 64)) offset)
- (type (simple-array ub32 (16)) block)
- (type simple-string buffer)
- (optimize (speed 3) (safety 0) (space 0) (debug 0)))
+ (type (simple-array ub32 (16)) block)
+ (type simple-string buffer)
+ (optimize (speed 3) (safety 0) (space 0) (debug 0)))
#+(and :cmu :little-endian)
(kernel:bit-bash-copy
buffer (+ (* vm:vector-data-offset vm:word-bits) (* offset vm:byte-bits))
(* 64 vm:byte-bits))
#-(and :cmu :little-endian)
(loop for i of-type (integer 0 16) from 0
- for j of-type (integer 0 #.most-positive-fixnum)
- from offset to (+ offset 63) by 4
- do
- (setf (aref block i)
- (assemble-ub32 (char-code (schar buffer j))
- (char-code (schar buffer (+ j 1)))
- (char-code (schar buffer (+ j 2)))
- (char-code (schar buffer (+ j 3)))))))
+ for j of-type (integer 0 #.most-positive-fixnum)
+ from offset to (+ offset 63) by 4
+ do
+ (setf (aref block i)
+ (assemble-ub32 (char-code (schar buffer j))
+ (char-code (schar buffer (+ j 1)))
+ (char-code (schar buffer (+ j 2)))
+ (char-code (schar buffer (+ j 3)))))))
(defun fill-block (block buffer offset)
"Convert a complete 64 byte input vector segment into the given 16
character simple-arrays, via the functions `fill-block-ub8' and
`fill-block-char' respectively."
(declare (type (integer 0 #.(- most-positive-fixnum 64)) offset)
- (type (simple-array ub32 (16)) block)
- (type (simple-array * (*)) buffer)
- (optimize (speed 3) (safety 0) (space 0) (debug 0)))
+ (type (simple-array ub32 (16)) block)
+ (type (simple-array * (*)) buffer)
+ (optimize (speed 3) (safety 0) (space 0) (debug 0)))
(etypecase buffer
((simple-array (unsigned-byte 8) (*))
(fill-block-ub8 block buffer offset))
"Create the final 16 byte message-digest from the MD5 working state
in regs. Returns a (simple-array (unsigned-byte 8) (16))."
(declare (optimize (speed 3) (safety 0) (space 0) (debug 0))
- (type md5-regs regs))
+ (type md5-regs regs))
(let ((result (make-array 16 :element-type '(unsigned-byte 8))))
(declare (type (simple-array (unsigned-byte 8) (16)) result))
(macrolet ((frob (reg offset)
- (let ((var (gensym)))
- `(let ((,var ,reg))
- (declare (type ub32 ,var))
- (setf
- (aref result ,offset) (ldb (byte 8 0) ,var)
- (aref result ,(+ offset 1)) (ldb (byte 8 8) ,var)
- (aref result ,(+ offset 2)) (ldb (byte 8 16) ,var)
- (aref result ,(+ offset 3)) (ldb (byte 8 24) ,var))))))
+ (let ((var (gensym)))
+ `(let ((,var ,reg))
+ (declare (type ub32 ,var))
+ (setf
+ (aref result ,offset) (ldb (byte 8 0) ,var)
+ (aref result ,(+ offset 1)) (ldb (byte 8 8) ,var)
+ (aref result ,(+ offset 2)) (ldb (byte 8 16) ,var)
+ (aref result ,(+ offset 3)) (ldb (byte 8 24) ,var))))))
(frob (md5-regs-a regs) 0)
(frob (md5-regs-b regs) 4)
(frob (md5-regs-c regs) 8)
;;; Mid-Level Drivers
(defstruct (md5-state
- (:constructor make-md5-state ())
- (:copier))
+ (:constructor make-md5-state ())
+ (:copier))
(regs (initial-md5-regs) :type md5-regs :read-only t)
(amount 0 :type
- #-md5-small-length (integer 0 *)
- #+md5-small-length (unsigned-byte 29))
+ #-md5-small-length (integer 0 *)
+ #+md5-small-length (unsigned-byte 29))
(block (make-array 16 :element-type '(unsigned-byte 32)) :read-only t
- :type (simple-array (unsigned-byte 32) (16)))
+ :type (simple-array (unsigned-byte 32) (16)))
(buffer (make-array 64 :element-type '(unsigned-byte 8)) :read-only t
- :type (simple-array (unsigned-byte 8) (64)))
+ :type (simple-array (unsigned-byte 8) (64)))
(buffer-index 0 :type (integer 0 63))
(finalized-p nil))
from-offset and copying count elements into the 64 byte buffer
starting at buffer-offset."
(declare (optimize (speed 3) (safety 0) (space 0) (debug 0))
- (type (unsigned-byte 29) from-offset)
- (type (integer 0 63) count buffer-offset)
- (type (simple-array * (*)) from)
- (type (simple-array (unsigned-byte 8) (64)) buffer))
+ (type (unsigned-byte 29) from-offset)
+ (type (integer 0 63) count buffer-offset)
+ (type (simple-array * (*)) from)
+ (type (simple-array (unsigned-byte 8) (64)) buffer))
#+cmu
(kernel:bit-bash-copy
from (+ (* vm:vector-data-offset vm:word-bits) (* from-offset vm:byte-bits))
buffer (+ (* vm:vector-data-offset vm:word-bits)
- (* buffer-offset vm:byte-bits))
+ (* buffer-offset vm:byte-bits))
(* count vm:byte-bits))
#-cmu
(etypecase from
(simple-string
(loop for buffer-index of-type (integer 0 64) from buffer-offset
- for from-index of-type fixnum from from-offset
- below (+ from-offset count)
- do
- (setf (aref buffer buffer-index)
- (char-code (schar (the simple-string from) from-index)))))
+ for from-index of-type fixnum from from-offset
+ below (+ from-offset count)
+ do
+ (setf (aref buffer buffer-index)
+ (char-code (schar (the simple-string from) from-index)))))
((simple-array (unsigned-byte 8) (*))
(loop for buffer-index of-type (integer 0 64) from buffer-offset
- for from-index of-type fixnum from from-offset
- below (+ from-offset count)
- do
- (setf (aref buffer buffer-index)
- (aref (the (simple-array (unsigned-byte 8) (*)) from)
- from-index))))))
+ for from-index of-type fixnum from from-offset
+ below (+ from-offset count)
+ do
+ (setf (aref buffer buffer-index)
+ (aref (the (simple-array (unsigned-byte 8) (*)) from)
+ from-index))))))
(defun update-md5-state (state sequence &key (start 0) (end (length sequence)))
"Update the given md5-state from sequence, which is either a
simple-string or a simple-array with element-type (unsigned-byte 8),
bounded by start and end, which must be numeric bounding-indices."
(declare (type md5-state state)
- (type (simple-array * (*)) sequence)
- (type fixnum start end)
- (optimize (speed 3) #+cmu (safety 0) (space 0) (debug 0))
- #+cmu
- (ext:optimize-interface (safety 1) (debug 1)))
+ (type (simple-array * (*)) sequence)
+ (type fixnum start end)
+ (optimize (speed 3) #+cmu (safety 0) (space 0) (debug 0))
+ #+cmu
+ (ext:optimize-interface (safety 1) (debug 1)))
(let ((regs (md5-state-regs state))
- (block (md5-state-block state))
- (buffer (md5-state-buffer state)))
+ (block (md5-state-block state))
+ (buffer (md5-state-buffer state)))
(declare (type md5-regs regs)
- (type (simple-array (unsigned-byte 32) (16)) block)
- (type (simple-array (unsigned-byte 8) (64)) buffer))
+ (type (simple-array (unsigned-byte 32) (16)) block)
+ (type (simple-array (unsigned-byte 8) (64)) buffer))
;; Handle old rest
(unless (zerop (md5-state-buffer-index state))
(let* ((buffer-index (md5-state-buffer-index state))
(etypecase sequence
((simple-array (unsigned-byte 8) (*))
(locally
- (declare (type (simple-array (unsigned-byte 8) (*)) sequence))
- (loop for offset of-type (unsigned-byte 29) from start below end by 64
- until (< (- end offset) 64)
- do
- (fill-block-ub8 block sequence offset)
- (update-md5-block regs block)
- finally
- (let ((amount (- end offset)))
- (unless (zerop amount)
- (copy-to-buffer sequence offset amount buffer 0))
- (setf (md5-state-buffer-index state) amount)))))
+ (declare (type (simple-array (unsigned-byte 8) (*)) sequence))
+ (loop for offset of-type (unsigned-byte 29) from start below end by 64
+ until (< (- end offset) 64)
+ do
+ (fill-block-ub8 block sequence offset)
+ (update-md5-block regs block)
+ finally
+ (let ((amount (- end offset)))
+ (unless (zerop amount)
+ (copy-to-buffer sequence offset amount buffer 0))
+ (setf (md5-state-buffer-index state) amount)))))
(simple-string
(locally
- (declare (type simple-string sequence))
- (loop for offset of-type (unsigned-byte 29) from start below end by 64
- until (< (- end offset) 64)
- do
- (fill-block-char block sequence offset)
- (update-md5-block regs block)
- finally
- (let ((amount (- end offset)))
- (unless (zerop amount)
- (copy-to-buffer sequence offset amount buffer 0))
- (setf (md5-state-buffer-index state) amount))))))
+ (declare (type simple-string sequence))
+ (loop for offset of-type (unsigned-byte 29) from start below end by 64
+ until (< (- end offset) 64)
+ do
+ (fill-block-char block sequence offset)
+ (update-md5-block regs block)
+ finally
+ (let ((amount (- end offset)))
+ (unless (zerop amount)
+ (copy-to-buffer sequence offset amount buffer 0))
+ (setf (md5-state-buffer-index state) amount))))))
(setf (md5-state-amount state)
- #-md5-small-length (+ (md5-state-amount state)
+ #-md5-small-length (+ (md5-state-amount state)
(the fixnum (- end start)))
- #+md5-small-length (the (unsigned-byte 29)
- (+ (md5-state-amount state)
+ #+md5-small-length (the (unsigned-byte 29)
+ (+ (md5-state-amount state)
(the fixnum (- end start)))))
state))
(unsigned-byte 8) values. Calling `update-md5-state' after a call to
`finalize-md5-state' results in unspecified behaviour."
(declare (type md5-state state)
- (optimize (speed 3) #+cmu (safety 0) (space 0) (debug 0))
- #+cmu
- (ext:optimize-interface (safety 1) (debug 1)))
+ (optimize (speed 3) #+cmu (safety 0) (space 0) (debug 0))
+ #+cmu
+ (ext:optimize-interface (safety 1) (debug 1)))
(or (md5-state-finalized-p state)
(let ((regs (md5-state-regs state))
- (block (md5-state-block state))
- (buffer (md5-state-buffer state))
- (buffer-index (md5-state-buffer-index state))
- (total-length (* 8 (md5-state-amount state))))
- (declare (type md5-regs regs)
- (type (integer 0 63) buffer-index)
- (type (simple-array ub32 (16)) block)
- (type (simple-array (unsigned-byte 8) (*)) buffer))
- ;; Add mandatory bit 1 padding
- (setf (aref buffer buffer-index) #x80)
- ;; Fill with 0 bit padding
- (loop for index of-type (integer 0 64)
- from (1+ buffer-index) below 64
- do (setf (aref buffer index) #x00))
- (fill-block-ub8 block buffer 0)
- ;; Flush block first if length wouldn't fit
- (when (>= buffer-index 56)
- (update-md5-block regs block)
- ;; Create new fully 0 padded block
- (loop for index of-type (integer 0 16) from 0 below 16
- do (setf (aref block index) #x00000000)))
- ;; Add 64bit message bit length
- (setf (aref block 14) (ldb (byte 32 0) total-length))
- #-md5-small-length
- (setf (aref block 15) (ldb (byte 32 32) total-length))
- ;; Flush last block
- (update-md5-block regs block)
- ;; Done, remember digest for later calls
- (setf (md5-state-finalized-p state)
- (md5regs-digest regs)))))
+ (block (md5-state-block state))
+ (buffer (md5-state-buffer state))
+ (buffer-index (md5-state-buffer-index state))
+ (total-length (* 8 (md5-state-amount state))))
+ (declare (type md5-regs regs)
+ (type (integer 0 63) buffer-index)
+ (type (simple-array ub32 (16)) block)
+ (type (simple-array (unsigned-byte 8) (*)) buffer))
+ ;; Add mandatory bit 1 padding
+ (setf (aref buffer buffer-index) #x80)
+ ;; Fill with 0 bit padding
+ (loop for index of-type (integer 0 64)
+ from (1+ buffer-index) below 64
+ do (setf (aref buffer index) #x00))
+ (fill-block-ub8 block buffer 0)
+ ;; Flush block first if length wouldn't fit
+ (when (>= buffer-index 56)
+ (update-md5-block regs block)
+ ;; Create new fully 0 padded block
+ (loop for index of-type (integer 0 16) from 0 below 16
+ do (setf (aref block index) #x00000000)))
+ ;; Add 64bit message bit length
+ (setf (aref block 14) (ldb (byte 32 0) total-length))
+ #-md5-small-length
+ (setf (aref block 15) (ldb (byte 32 32) total-length))
+ ;; Flush last block
+ (update-md5-block regs block)
+ ;; Done, remember digest for later calls
+ (setf (md5-state-finalized-p state)
+ (md5regs-digest regs)))))
;;; High-Level Drivers
underlying MD5 routines, on other implementations it only works for 1d
simple-arrays with such element types."
(declare (optimize (speed 3) (space 0) (debug 0))
- (type vector sequence) (type fixnum start))
+ (type vector sequence) (type fixnum start))
(let ((state (make-md5-state)))
(declare (type md5-state state))
#+cmu
(cond
((equal (stream-element-type stream) '(unsigned-byte 8))
(let ((buffer (make-array +buffer-size+
- :element-type '(unsigned-byte 8))))
- (declare (type (simple-array (unsigned-byte 8) (#.+buffer-size+))
- buffer))
- (loop for bytes of-type buffer-index = (read-sequence buffer stream)
- do (update-md5-state state buffer :end bytes)
- until (< bytes +buffer-size+)
- finally
- (return (finalize-md5-state state)))))
+ :element-type '(unsigned-byte 8))))
+ (declare (type (simple-array (unsigned-byte 8) (#.+buffer-size+))
+ buffer))
+ (loop for bytes of-type buffer-index = (read-sequence buffer stream)
+ do (update-md5-state state buffer :end bytes)
+ until (< bytes +buffer-size+)
+ finally
+ (return (finalize-md5-state state)))))
((equal (stream-element-type stream) 'character)
(let ((buffer (make-string +buffer-size+)))
- (declare (type (simple-string #.+buffer-size+) buffer))
- (loop for bytes of-type buffer-index = (read-sequence buffer stream)
- do (update-md5-state state buffer :end bytes)
- until (< bytes +buffer-size+)
- finally
- (return (finalize-md5-state state)))))
+ (declare (type (simple-string #.+buffer-size+) buffer))
+ (loop for bytes of-type buffer-index = (read-sequence buffer stream)
+ do (update-md5-state state buffer :end bytes)
+ until (< bytes +buffer-size+)
+ finally
+ (return (finalize-md5-state state)))))
(t
(error "Unsupported stream element-type ~S for stream ~S."
- (stream-element-type stream) stream)))))
+ (stream-element-type stream) stream)))))
(defun md5sum-file (pathname)
"Calculate the MD5 message-digest of the file specified by pathname."
#+md5-testing
(defun test-with-testsuite (testsuite)
(loop for count from 1
- for (source . md5-string) in testsuite
- for md5-digest = (md5sum-sequence source)
- for md5-result-string = (format nil "~(~{~2,'0X~}~)"
- (map 'list #'identity md5-digest))
- do
- (format
- *trace-output*
- "~2&Test-Case ~D:~% Input: ~S~% Required: ~A~% Returned: ~A~%"
- count source md5-string md5-result-string)
- when (string= md5-string md5-result-string)
- do (format *trace-output* " OK~%")
- else
- count 1 into failed
- and do (format *trace-output* " FAILED~%")
- finally
- (format *trace-output*
- "~2&~[All ~D test cases succeeded~:;~:*~D of ~D test cases failed~].~%"
- failed (1- count))
- (return (zerop failed))))
+ for (source . md5-string) in testsuite
+ for md5-digest = (md5sum-sequence source)
+ for md5-result-string = (format nil "~(~{~2,'0X~}~)"
+ (map 'list #'identity md5-digest))
+ do
+ (format
+ *trace-output*
+ "~2&Test-Case ~D:~% Input: ~S~% Required: ~A~% Returned: ~A~%"
+ count source md5-string md5-result-string)
+ when (string= md5-string md5-result-string)
+ do (format *trace-output* " OK~%")
+ else
+ count 1 into failed
+ and do (format *trace-output* " FAILED~%")
+ finally
+ (format *trace-output*
+ "~2&~[All ~D test cases succeeded~:;~:*~D of ~D test cases failed~].~%"
+ failed (1- count))
+ (return (zerop failed))))
#+md5-testing
(defun test-rfc1321 ()